2 Configuring the SS7 Signaling Server Unit for SIGTRAN

This section describes how to configure SS7 SSU in a network in which SS7 traffic is carried over SIGTRAN M3UA

Configuring SS7 SSU for SIGTRAN with the Administration Console

This section describes how to configure SS7 SSU for SIGTRAN using the Service Broker Administration Console.

The section provides graphical representations of a deployment example.

To access the SS7 SSU configuration pane:

In the domain navigation pane, expand OCSB.
Expand Signaling Tier.
Select SSU SS7 SIGTRAN.

The SSU SS7 SIGTRAN configuration pane contains the tabs described in Table 2-1.

Note:

You must configure the parameters exactly in the order they are presented in Table 2-1.

Table 2-1 M3UA Configuration Tabs

Tab	Description
SSU SS7 SIGTRAN	Enables you to assign a point code to a Service Broker SSU and define the underlying SS7 stack. See "SSU SS7 SIGTRAN" for more information.
M3UA	Enables you to configure the M3UA layers of the SS7 stack. See "M3UA" for more information.
SCCP	Enables you to configure SCCP addresses: subsystems and global titling. See "SCCP" for more information.
Routing	Enables you to define how the SS7 SSU routes incoming SS7 messages to internal Service Broker IMs. See "Routing" for more information.

SSU SS7 SIGTRAN

The SSU SS7 SIGTRAN tab enables you to assign a point code to a Service Broker SSU and configure the M3UA stack runtime options.

To access the SSU SS7 SIGTRAN tab:

In the SSU SS7 SIGTRAN configuration pane, click the SSU SS7 SIGTRAN tab.

The General subtab contains the parameters described in Table 2-2.

Table 2-2 SS7 SSU SIGTRAN Parameters

Name	Type	Description
Vendor	STRING	Specifies the SIGTRAN stack vendor. Possible options: isigtran dialogic
Standard	STRING	Specifies which standard to use to encode M3UA messages. Possible values: ANSI ETSI Default value: ETSI
SS7 Stack IP	INT	The IP address where the SS7 process (that is, the SS7 stack wrapper) is running.
SS7 Stack Port	INT	The port that the SS7 process is using to listen to messages from the SS7 SSU. This is the same port you specify to the SS7 process, in the command line, when you start it. See "Starting and Stopping the SS7 Process" in Service Broker System Administrator's Guide.

M3UA

The M3UA tab enables you to configure the M3UA layers of the SS7 stack.

To access the M3UA tab:

In the SSU SS7 configuration pane, click the M3UA tab.
In the SSU Instance list, select the Signaling Server that you want to configure.
Select one of the subtabs described in Table 2-3.

Table 2-3 M3UA Subtabs

Subtab	Description
Local Point Code	Enables you to specify a point code for each SSU instance. See "Local Point Code" for more information.
Connectivity	Enables you to set up an IP connection between the Service Broker SSU instances and an SS7 network. See "Connectivity" for more information.
Network Mapping	Enables you to define SCTP associations and connect SSUs to adjacent signaling points. See "Network Mapping" for more information.
Network Routing	Enables you to configure routes to entities in an SS7 network. See "Network Routing" for more information.

Local Point Code

The Local Point Code subtab enables you to specify a point code of the SSU instance that you selected in the SSU Instance list, as described in Table 2-4.

Table 2-4 Point Code Field

Name	Type	Description
Local Point Code	INT	Specifies a local point code of the SSU instance that you selected in the SSU Instance list. A value of the parameter must be integer.

Connectivity

The Connectivity subtab enables you to set up an IP connection between the Service Broker SSU instances and an SS7 network. You configure SSU instances as local systems and other SS7 network entities that are directly connected to the SSU instance as remote systems.

Table 2-5 describes the subtabs on the SS7 SSU Connectivity subtab.

Table 2-5 SS7 Connectivity Subtab

Subtab	Description
Local System	Enables you to configure the SS7 SSU instance as a local M3UA system. See "Configuring the Local System" for more information.
Remote Systems	Enables you to configure network entities. See "Configuring Remote Systems" for more information.

Subtab

Description

Local System

Enables you to configure the SS7 SSU instance as a local M3UA system.

See "Configuring the Local System" for more information.

Remote Systems

Enables you to configure network entities.

See "Configuring Remote Systems" for more information.

Configuring the Local System

The Local System subtab enables you to configure the SS7 SSU instance as a local M3UA system.

Figure 2-1 shows an example of configuration of the local systems components.

Figure 2-1 Configuration Example: M3UA Local Systems

Example of a M3UA local system configuration

The Local System subtab contains a table in which you configure one row that defines an SSU instance as a local system. When defining the SSU instance as a local system, you need to specify the fields described in Table 2-6.

Table 2-6 Local Systems Fields

Name	Type	Description
Name	STRING	Specifies a descriptive name for the local system
Routing Context	INT (11)	Specifies a unique identifier that logically identifies a local system when communicating with a traditional SS7 network through a signaling gateway. Routing Context can be set to any value between 0 and 2147483647. Default value: 0.
SS7 Mode	STRING	Specifies an SS7 signaling mode that determines the type of SS7 traffic. Possible options: ITU14: ITU operation with 14 bit Point Code ITU16: ITU operation with 16 bit Point Code ITU24: ITU operation with 24 bit Point Code ANSI: ANSI operation with 24 bit Point Code Default value: ITU14
Traffic Mode	STRING	Specifies the traffic mode in which SSUs operate. Possible options: Loadshare (LS): SSU shares traffic distribution with any other currently active SSUs. Broadcast (BC): SSU receives the same messages as any other currently active SSUs Override (OR): SSU takes over all traffic in Service Broker (that is, primary/backup operation) overriding any currently active SSUs in Service Broker Default value: Loadshare (LS)
IP Address1	STRING	Specifies an SSU IP. The IP address must have the following format: n.n.n.n. Default value: 0.0.0.0
IP Address2	STRING	Specifies an alternative SSU IP address. This address is used when the address defined in the IP Address1 parameter is unreachable. The IP address must have the following format: n.n.n.n.

Configuring Remote Systems

The Remote Systems subtab enables you to configure other M3UA network entities to which the SSU instance is directly connected.

Figure 2-2 shows an example of configuration of the remote systems components.

Figure 2-2 Configuration Example: M3UA Remote Systems

Example of a M3UA Remote Systems configuration.

The Remote Systems subtab contains a table in which each row represents a single entity that acts as a remote system. When defining a remote system, you need to specify the fields described in Table 2-7.

Table 2-7 Remote Systems Fields

Name	Type	Description
Name	STRING	Specifies a unique name for the Remote System
Type	STRING	Specifies the network entity type. The only available option is SG which stands for Signaling Gateway.
IP Address 1	STRING	Specifies a network entity IP address. The IP address must have the following format: n.n.n.n. Default value: 0.0.0.0.
IP Address 2	STRING	Specifies a network entity alternative IP address. This address is used when the address defined in the IP Address 1 parameter is unreachable. The IP address must have the following format: n.n.n.n.

Network Mapping

The Network Mapping subtab enables you to define SCTP associations that connect a local system (an SSU instance) to remote systems.

Figure 2-3 shows an example of configuration of SCTP associations.

Figure 2-3 Configuration Example: M3UA SCTP Associations

Example of an M3UA SCTP Associations configuration.

The SCTP Associations subtab contains a table in which each row represents a single association. When defining an SCTP association, you need to specify the fields described in Table 2-8.

Table 2-8 SCTP Associations Fields

Name	Type	Description
Name	STRING	Specifies a descriptive name for the SCTP association
Side	STRING	Specifies the mode in which the local side operates. Possible options: Client Server Default value: Client. Setting this parameter requires coordination with the application on the remote side.
Type	STRING	Specifies the SIGTRAN mode. Set this parameter to M3UA.
Local Port	INT	Specifies an SCTP port on the local system side.
Remote Side	STRING	Specifies an entity on the association's network side. Select one of the remote systems that you have previously defined on the Remote Systems subtab in the Connectivity section. See "Configuring Remote Systems" for more information about configuring remote systems.
Remote Port	INT	Specifies an SCTP port on the remote system side

Network Routing

The Network Routing subtab enables you to configure routes to entities in an SS7 network.

Figure 2-4 shows an example of configuration of M3UA routes.

Figure 2-4 Configuration Example: M3UA Routes

The M3UA Routes subtab contains a table in which each row represents a route. When defining a route, you need to specify the fields described in Table 2-9.

Table 2-9 M3UA Routes Fields

Name	Type	Description
Name	STRING	Specifies a descriptive name for the route
Remote Point Code	INT (11)	Specifies an RPC that is available on the far end of the route. You can select one of the RPCs that you have previously defined on the Point Codes subtab in the Network Mapping section.
Primary Remote SIGTRAN System	STRING	Specifies the remote SIGTRAN system through which the SSU instance routes messages to the remote entity. Most likely, this is a Signaling Gateway.
Secondary Remote SIGTRAN System	STRING	Specifies an alternative SIGTRAN system through which the SSU instance routes messages to the remote entity

SCCP

The SCCP tab enables you to configure SCCP addresses for:

Service Broker modules
Remote entities in an SS7 network.

To access the SCCP tab:

In the SS7 SSU SIGTRAN configuration pane, click the SCCP tab.

The SCCP configuration screen contains the subtabs described in Table 2-10.

Table 2-10 SCCP Section Subtabs

Subtab	Description
General	Enables you to specify parameters, which are common for all SCCP addresses. See "General" for more information.
Local SSNs	Enables you to assign subsystem numbers for Service Broker module instances. See "Local SSNs" for more information.
Local GTs	Enables you to configure Global Title addresses for Service Broker module instances. See "Local GTs" for more information.
Remote PC and SSN Addresses	Enables you to configure addresses of remote entities in the SS7 network that can be reached using a point code and a subsystem number. See "Remote PC and SSN Addresses" for more information.
Remote Fixed GTs	Enables you to configure addresses of remote entities in the SS7 network that can be reached using a fixed Global Title. See "Remote Fixed GTs" for more information.
Remote Dynamic GTs	Enables you to configure addresses of remote entities in the SS7 network that can be reached using a dynamic Global Title. See "Remote Dynamic GTs" for more information.
Global Title Routing	Enables you to configure addresses of network entities that perform Global Title Translation. See "Global Title Routing" for more information.

General

The General subtab enables you to specify parameters, which are common for all SCCP addresses. Table 2-11 describes the parameter on the General subtab that you need to define.

Table 2-11 General Parameter

Name	Type	Description
Local Network Indicator	STRING	Specifies the network type of an SSU address, which is common for all SSU local SCCP addresses. Possible values: International Network International Network Extension National Network National Network Extension Default value: International Network The Local Network Indicator parameter of the M3UA stack is set to the same value as this parameter. However, because International Network Extension and National Network Extension are not supported in the M3UA stack, these two parameters are translated as follows in M3UA: International Network Extension is translated to International Network National Network Extension is translated to National Network
Remove Calling Party Point Code upon GT Routing	BOOL	Specifies whether or not the local SSU point code is to be added to the calling party address, when routing is done with a Global Title. Possible values: True: the local point code is not added to the calling party address False: the local point code is added to the calling party address
Remove Called Party Point Code upon GT Routing	BOOL	Specifies whether or not the remote point code is to be removed from the called party address, when routing is done with a Global Title. Possible values: True: the remote point code is not added to the called party address False: the remote point code is added to the called party address

Name

Type

Description

Local Network Indicator

STRING

Specifies the network type of an SSU address, which is common for all SSU local SCCP addresses.

Possible values:

International Network
International Network Extension
National Network
National Network Extension

Default value: International Network

The Local Network Indicator parameter of the M3UA stack is set to the same value as this parameter. However, because International Network Extension and National Network Extension are not supported in the M3UA stack, these two parameters are translated as follows in M3UA:

International Network Extension is translated to International Network
National Network Extension is translated to National Network

Remove Calling Party Point Code upon GT Routing

BOOL

Specifies whether or not the local SSU point code is to be added to the calling party address, when routing is done with a Global Title.

Possible values:

True: the local point code is not added to the calling party address
False: the local point code is added to the calling party address

Remove Called Party Point Code upon GT Routing

BOOL

Specifies whether or not the remote point code is to be removed from the called party address, when routing is done with a Global Title.

Possible values:

True: the remote point code is not added to the called party address
False: the remote point code is added to the called party address

Local SSNs

The Local SSNs subtab enables you to assign Subsystem Numbers (SSNs) for Service Broker module instances. An SSU routes incoming messages to local subsystems based on these SSNs.

Figure 2-5 shows an example of configuration of local SSNs.

Figure 2-5 Configuration Example: Local SSNs

The Local SSNs subtab contains a table in which each row represents a single Service Broker subsystem. When configuring an SSN, you need to specify the fields described in Table 2-12.

Table 2-12 Local SSNs Fields

Name	Type	Description
Name	STRING	Specifies the subsystem name
SSN	INT	Specifies the subsystem number. Default value: 0.
Description	STRING	Specifies a subsystem description
Alias	STRING	Specifies an alias name given to a Service Broker subsystem. Applications that use Service Broker to connect to the SS7 network, use this alias to refer the specific subsystem.

Local GTs

The Local GTs subtab enables you to configure Global Title addresses for Service Broker module instances.

Figure 2-6 shows an example of configuration of local GTs.

Figure 2-6 Configuration Example: Local GT

The Local GTs subtab contains a table in which each row represents a single address. When defining an address, you need to specify the fields described in Table 2-13.

Table 2-13 Local GTs Fields

Name	Type	Description
Name	STRING	Specifies a unique name
Description	STRING	Specifies a description for the Service Broker GT address.
GT Address	STRING	Specifies the Global Title Address part of the SCCP address
SSN	INT	Specifies the SSN part of the SCCP address that identifies the user function
GT Indicator	INT	Specifies the Global Title Indicator part of the GT.
GT Nature of Address	INT	Specifies the Nature of Address Indicator part of the GT
GT Numbering Plan	INT	Specifies the Numbering Plan part of the GT
GT Translation Type	INT	Specifies the Translation Type part of the SCCP address
Alias	STRING	Specifies an alias name given to a Service Broker subsystem. Applications that use Service Broker to connect to the SS7 network use this alias to refer the specific GT address.

Remote PC and SSN Addresses

The Remote PC and SSN Addresses subtab enables you to configure addresses of remote entities in the SS7 network that can be reached using a point code and a subsystem number.

Figure 2-7 shows an example of configuration of a remote point code and an SSN.

Figure 2-7 Configuration Example: Remote PC and SSN

Example of a remote PC and SSN configuration.

The Remote PC and SSN Addresses subtab contains a table in which each row represents a single SS7 network entity. When configuring a network entity, you need to specify the fields described in Table 2-14.

Table 2-14 Remote PC and SSN Fields

Name	Type	Description
Name	STRING	Specifies a unique name
Network Indicator	STRING	Specifies the network type. Possible values: International Network National Network Default value: International Network
SSN	INT	Specifies the SSN part of the SCCP address that identifies the user function.
Point Code	INT	Specifies the point code part of the SCCP address.
Description	STRING	Specifies a description for the remote SS7 network entity.
Alias	STRING	Specifies an alias name given to a remote network entity. Applications that use Service Broker to connect to the SS7 network use this alias to refer the specific network entity.

Remote Fixed GTs

The Remote Fixed GTs subtab enables you to configure addresses of remote entities in the SS7 network that can be reached using a fixed Global Title.

Figure 2-8 shows an example of configuration of remote fixed GTs.

Figure 2-8 Configuration Example: Remote Fixed GTs

Example of remote Fixed GT configuration.

The Remote Fixed GTs subtab contains a table in which each row represents a single SS7 network entity. When configuring a network entity, you need to specify the fields described in Table 2-15.

Table 2-15 Remote Fixed GTs Fields

Name	Type	Description
Name	STRING	Specifies a unique name
Network Indicator	STRING	Specifies the network type. Possible options: International Network National Network Default option: International Network
Description	STRING	Specifies a description for the network entity and its address
GT Address	STRING	Specifies the Global Title Address part of the SCCP address
Point Code	INT	Optional: specifies the point code part of the SCCP address. When specified, the SSU routes messages to the specified point code, including a GT address.
SSN	INT	Specifies the SSN part of the SCCP address that identifies the user function
GT Indicator	INT	Specifies the Global Title Indicator part of the GT
GT Nature of Address	INT	Specifies the Nature of Address Indicator part of the GT
GT Numbering Plan	INT	Specifies the Numbering Plan part of the GT.
GT Translation Type	INT	Specifies the Translation Type part of the SCCP address
Alias	STRING	Specifies an alias name given to a remote network entity. Applications that use Service Broker to connect to the SS7 network use this alias to refer the specific network entity.

Remote Dynamic GTs

The Remote Dynamic GTs subtab enables you to configure addresses of remote entities in the SS7 network that can be reached using a dynamic Global Title.

The Remote Dynamic GTs subtab contains a table in which each row represents a single SCCP address. When configuring an SCCP address, you need to specify the fields described in Table 2-16.

Table 2-16 Remote Dynamic GTs Fields

Name	Type	Description
Name	STRING	Specifies a unique name
Network Indicator	STRING	Specifies the network type. The following options are available: International Network National Network Default value: International Network
Description	STRING	Specifies a description for the dynamic GT address
Point Code	INT	Optional: specifies the point code part of the SCCP address. When specified, the SSU routes messages to the specified point code, including a GT address.
SSN	INT	Specifies the SSN part of the SCCP address that identifies the user function
GT Indicator	INT	Specifies the Global Title Indicator part of the GT
GT Nature of Address	INT	Specifies the Nature of Address Indicator part of the GT
GT Numbering Plan	INT	Specifies the Numbering Plan part of the GT.
GT Translation Type	INT	Specifies the Translation Type part of the SCCP address
Alias	STRING	Specifies an alias name given to an SCCP address. Applications that use Service Broker to connect to the SS7 network use this alias when they wish route messages using this address.

Global Title Routing

The Global Title Routing subtab enables you to configure addresses of network entities that perform Global Title Translation. Typically these point codes are Signal Transfer Points (STPs).

Figure 2-9 shows an example of configuration of point codes.

Figure 2-9 Configuration Example: Global Title Routing

Example of a Global Title Routing configuration.

The Global Title Routing subtab contains a table in which each row represents a point code that performs GTT. When defining a point code that performs GTT, you need to specify the fields described in Table 2-17.

Table 2-17 Global Title Routing Parameters

Name	Type	Description
Primary GTT Point Code	INT	Specifies a primary remote point code that performs GTT.
Secondary GTT Point Code	INT	Specifies an alternative remote point code that performs GTT.
Operation Mode	STRING	Specifies the mode in which the primary and secondary remote point codes operate. The following options are available: LOAD_SHARING: the SSU sends messages to both primary and secondary point codes in a load sharing mode. PRIMARY_SECONDARY: the SSU sends messages to the primary point code. If the primary point code is not available, the SSU routes messages to the secondary point code. Default value: PRIMARY_SECONDARY

Name

Type

Description

Primary GTT Point Code

INT

Specifies a primary remote point code that performs GTT.

Secondary GTT Point Code

INT

Specifies an alternative remote point code that performs GTT.

Operation Mode

STRING

Specifies the mode in which the primary and secondary remote point codes operate.

The following options are available:

LOAD_SHARING: the SSU sends messages to both primary and secondary point codes in a load sharing mode.
PRIMARY_SECONDARY: the SSU sends messages to the primary point code. If the primary point code is not available, the SSU routes messages to the secondary point code.

Default value: PRIMARY_SECONDARY

Routing

The Routing tab enables you to define an IM to which the SS7 SSU routes an incoming session by specifying a set of parameters known as incoming routing rule. For each incoming routing rule, you need to configure the following parameters:

IM to which the SS7 SSU routes an incoming session
Criteria that an incoming session must meet to be routed to this IM
Priority in which the SS7 SSU checks incoming routing rules to evaluate whether an incoming session fits the criteria defined in a rule. The SS7 SSU applies the first found rule which criteria are met by an incoming session.

For example, if you created multiple rules for the same IM, SS7 SSU begins with the rule that has the highest priority. If an incoming session fits the criteria defined in this rule, the SS7 SSU applies the rule and do not check the rest of the rules. Otherwise, the SS7 SSU checks whether an incoming session fits the criteria of a rule with a lower priority. The SS7 SSU performs this check until the SS7 SSU finds a rule whose criteria are met by an incoming session.

You can define incoming routing rules using the Routing tab. The process of defining an incoming routing rule consists of the following steps:

You create a rule and define its name, priority, and an IM for which you create this rule. You perform these actions using the Incoming Routing Rules subtab.
You define criteria for each rule that you created on step 1.

Accessing the Routing Tab

The Routing tab enables you to define rules for routing incoming sessions to IMs.

To access the Routing tab:

In the domain navigation pane, expand OCSB.
Expand Signaling Tier.
Select SSU SS7 SIGTRAN.
Click the Routing tab.

The Routing tab contains the subtabs described in Table 2-18.

Table 2-18 Routing Subtabs

Subtab	Description
Incoming Routing Rules	Enables you to define a name, priority, and an IM for which you create a rule. See "Configuring Incoming Routing Rules Parameters" for more information.
Incoming Routing Criteria	Enables you to define criteria for each routing rule created on the Incoming Routing Rules subtab. See "Configuring Incoming Routing Criteria Parameters" for more information.

Subtab

Description

Incoming Routing Rules

Enables you to define a name, priority, and an IM for which you create a rule.

See "Configuring Incoming Routing Rules Parameters" for more information.

Incoming Routing Criteria

Enables you to define criteria for each routing rule created on the Incoming Routing Rules subtab.

See "Configuring Incoming Routing Criteria Parameters" for more information.

Configuring Incoming Routing Rules Parameters

The Incoming Routing Rules subtab enables you to define a name, priority, and an IM for which you create a rule. The Incoming Routing Rules subtab contains a table in which each row represents an individual rule.

When you define a rule, you need to specify the fields defined in Table 2-19.

Table 2-19 Incoming Routing Rule Fields

Name Type Description

Name	Type	Description
Name	STRING	Specifies a unique rule name
Priority	INT	Specifies an order in which the SS7 SSU checks routing rules to evaluate if an incoming session fits rule's criteria. The SS7 SSU applies the first found rule which criteria are met by an incoming session. The lower the number, the higher the priority. For example, if you created two rules and set Priority of one rule to" 1" and set Priority of another rule to "2", the SS7 SSU checks the rule with Priority set to "1" first. You can define an incoming routing rule that the SS7 SSU apply if no other rule can be applied by setting the Priority parameter of this rule to the highest number (that is, the number with the lowest priority). There is no need to specify incoming routing criteria for such a rule.
Module Instance	STRING	Specifies a URI of an IM to which the SS7 SSU routes an incoming session. The URI has the following format: IM-instance-name.IM-type@domain-id IM-instance-name: The IM instance name that you specified when you added this IM in the IM Management Configuration screen. IM-type: The type of the IM instance domain-id: The name of a Processing Domain or a Processing Domain Group where the relevant IM is deployed. See "Setting Up the Service Broker Domain Name" in the Oracle Communications Service Broker System Administrator's Guide for more information on setting up a domain name. To set a Processing Domain, you must specify the name you configured for the domain during its creation. See "Setting a Service Broker Domain Name" in Oracle Communications Service Broker Processing Domain Configuration Guide for more information. To set a Processing Domain Group, you must specify the group name. See Managing Processing Domain Groups in Oracle Communications Service Broker Processing Domain Configuration Guide for more information about Processing Domain Groups. Example: `imscfcap4_instance.IMSCFCAP4@processing-domain-1`

Name

STRING

Specifies a unique rule name

Priority

INT

Specifies an order in which the SS7 SSU checks routing rules to evaluate if an incoming session fits rule's criteria. The SS7 SSU applies the first found rule which criteria are met by an incoming session.

The lower the number, the higher the priority. For example, if you created two rules and set Priority of one rule to" 1" and set Priority of another rule to "2", the SS7 SSU checks the rule with Priority set to "1" first.

You can define an incoming routing rule that the SS7 SSU apply if no other rule can be applied by setting the Priority parameter of this rule to the highest number (that is, the number with the lowest priority). There is no need to specify incoming routing criteria for such a rule.

Module Instance

STRING

Specifies a URI of an IM to which the SS7 SSU routes an incoming session.

The URI has the following format:

IM-instance-name.IM-type@domain-id

IM-instance-name: The IM instance name that you specified when you added this IM in the IM Management Configuration screen.
IM-type: The type of the IM instance
domain-id: The name of a Processing Domain or a Processing Domain Group where the relevant IM is deployed. See "Setting Up the Service Broker Domain Name" in the Oracle Communications Service Broker System Administrator's Guide for more information on setting up a domain name.

To set a Processing Domain, you must specify the name you configured for the domain during its creation. See "Setting a Service Broker Domain Name" in Oracle Communications Service Broker Processing Domain Configuration Guide for more information.

To set a Processing Domain Group, you must specify the group name. See Managing Processing Domain Groups in Oracle Communications Service Broker Processing Domain Configuration Guide for more information about Processing Domain Groups.

Example:

imscfcap4_instance.IMSCFCAP4@processing-domain-1

Configuring Incoming Routing Criteria Parameters

The Incoming Routing Criteria subtab enables you to define criteria for rules that you created on the Incoming Routing Rules subtab. The Incoming Routing Criteria contains a table in which each row represents a routing rule.

When you define criteria, you need to specify the fields defined in Table 2-20.

Table 2-20 Incoming Routing Criteria Fields

Name	Type	Description
Parent	STRING	Specifies the name of a rule for which you want to define criteria. This list contains names of the rules that you created on the Incoming Routing Rules subtab.
Name	STRING	Specifies a unique rule name
Session Key	STRING	Specifies a parameter inside an SCCP message based on which the SS7 SSU performs routing. The SS7 SSU routes incoming messages to a specified module instance, if the value of this parameter matches the Value field. Possible values: DEST_ADDRESS_ALIAS SOURCE_ADDRESS_ALIAS APPLICATION_CONTEXT SERVICE_KEY OPCODE
Value	STRING	Specifies a value that the Session Key parameter of an SCCP message must match, in order for the rule specified in Parent to apply. You can define one of the following in the Value parameter: Single value Range of dash-separated values Comma-separated values

Configuring SS7 SSU for SIGTRAN with Java MBeans

Service Broker provides a set of MBeans that expose attributes and operations for configuring SSU SS7 for SIGTRAN through JMX. Figure 2-10 shows the hierarchy of MBeans that you use for configuring SSU SS7 for SIGTRAN. Because a Service Broker deployment includes two SSU instances, you need to configure an SsuTargetMBean for each SSU instance separately.

Figure 2-10 SSU SS7 for SIGTRAN Configuration MBean Hierarchy

The following sections provide reference information for the SS7 SSU configuration MBeans.

Note:

MBeans described in this guide might include additional advanced attributes, which are not described in the guide. Advanced attributes are reserved for internal use. Do not change these attributes.

SsuSs7SigtranMBean

Ss7SsuSigtranMBean is a root MBean for the SS7 SSU for SIGTRAN configuration.

Factory Method

Created automatically

Attributes

Vendor
Standard
Ss7StackIp
Ss7StackPort

For more information on these attributes, see Table 2-2.

Operations

ObjectName getSccp()

Gets a reference to the instance of SccpMBean

ObjectName[] getSsuSs7SigtranTargets()

Gets an array of references to instances of SsuSs7SigtranTargetMBean

ObjectName getSccpIncomingRoutingRules()

Gets a reference to the instance of SccpIncomingRoutingRulesMBean

ObjectName createSsuSs7SigtranTarget()

Creates a new instance of SsuSs7SigtranTargetMBean

void destroySsuSs7SigtranTarget()

Destroys an existing instance of SsuSs7SigtranTargetMBean

ObjectName lookupSsuSs7SigtranTarget()

Returns the SsuSs7SigtranTargetMBean of the SSU running on the specified target server

SsuSs7SigtranTargetMBean

SsuSs7SigtranTargetMBean enables you to access the configuration MBeans of a specific SSU

Factory Method

Ss7SsuSigtran.createSsuSs7SigtranTarget()

Attributes

None

Operations

ObjectName getM3ua()

Returns a reference to the instance of M3uaMBean

M3uaMBean

M3uaMBean enables you to access the configuration MBeans of a specific SS7 SSU instance.

Factory Method

Created automatically

Attributes

LocalPointCode

For more information on these attributes, see Table 2-4.

Operations

ObjectName getIpLocalSystems()

Returns a reference to the instance of IpLocalSystemsMBean

ObjectName getIpRemoteSystems()

Returns a reference to the instance of IpRemoteSystemsMBean

ObjectName getM3uaRoutes()

Returns a reference to the instance of M3uaRoutesMBean

ObjectName getSctpAssociations()

Returns a reference to the instance of SctpAssociationsMBean

IpLocalSystemsMBean

IpLocalSystemsMBean is a root MBean for individual instances of IpLocalSystemMBean.

Factory Method

Created automatically

Attributes

None

Operations

ObjectName[] getIpLocalSystems()

Gets an array of references to instances of IpLocalSystemMBean

ObjectName createIpLocalSystem()

Creates a new instance of IpLocalSystemMBean

void destroyIpLocalSystem()

Destroys an existing instance of IpLocalSystemMBean

ObjectName lookupIpLocalSystem()

Returns a reference to the specified instance of IpLocalSystemMBean

IpLocalSystemMBean

IpLocalSystemMBean enables you to configure an SS7 SSU instance as a local SIGTRAN system.

Factory Method

IpLocalSystems.createIpLocalSystem()

Attributes

Name
RoutingContext
SS7Mode
TrafficMode
FirstIp
SecondIp

For more information on these attributes, see Table 2-6.

Operations

None

IpRemoteSystemsMBean

IpRemoteSystemsMBean is a root MBean for individual instances of IpRemoteSystemMBean.

Factory Method

Created automatically

Attributes

None

Operations

ObjectName[] getIpRemoteSystems()

Gets an array of references to instances of IpRemoteSystemMBean

ObjectName createIpRemoteSystem()

Creates a new instance of IpRemoteSystemMBean

void destroyIpRemoteSystem()

Destroys an existing instance of IpRemoteSystemMBean

ObjectName lookupIpRemoteSystem()

Returns a reference to the specified instance of IpRemoteSystemMBean

IpRemoteSystemMBean

IpRemoteSystemMBean enables you to configure an M3UA network entity to which the SSU instance is directly connected.

Factory Method

IpRemoteSystems.createIpRemoteSystem()

Attributes

Name
Type
FirstIp
SecondIp

For more information on these attributes, see Table 2-7.

Operations

None

SctpAssociationsMBean

SctpAssociationsMBean is a root MBean for individual instances of SctpAssociationMBean.

Factory Method

Created automatically

Attributes

None

Operations

ObjectName[] getSctpAssociations()

Gets an array of references to instances of SctpAssociationMBean

ObjectName createSctpAssociation()

Creates a new instance of SctpAssociationMBean

void destroySctpAssociation()

Destroys an existing instance of SctpAssociationMBean

ObjectName lookupSctpAssociation()

Returns a reference to the specified instance of SctpAssociationMBean

SctpAssociationMBean

SctpAssociationMBean enables you to configure a channel that connects an SSU instance to another SIGTRAN network entity.

Factory Method

SctpAssociations.createSctpAssociation()

Attributes

Name
Side
Type
LocalPort
RemoteSide
RemotePort

For more information on these attributes, see Table 2-8.

Operations

None

M3uaRoutesMBean

M3uaRoutesMBean is a root MBean for individual instances of M3uaRouteMBean.

Factory Method

Created automatically

Attributes

None

Operations

ObjectName[] getM3uaRoutes()

Gets an array of references to instances of M3uaRouteMBean

ObjectName createM3uaRoute()

Creates a new instance of M3uaRouteMBean

void destroyM3uaRoute()

Destroys an existing instance of M3uaRouteMBean

ObjectName lookupM3uaRoute()

Returns a reference to the specified instance of M3uaRouteMBean

M3uaRouteMBean

M3uaRouteMBean enables you to configure how SS7 SSU instances can access SS7 network entities.

Factory Method

M3uaRoutes.createM3uaRoute()

Attributes

Name
RemotePointCode
PrimaryRemoteSigtranSystem
SecondaryRemoteSigtranSystem

For more information on these attributes, see Table 2-9.

Operations

None

SccpIncomingRoutingRulesMBean

SccpIncomingRoutingRulesMBean enables you to define how the SS7 SSU routes incoming SS7 messages to Service Broker IMs.

Factory Method

Created automatically

Attributes

None

Operations

ObjectName[] getSccpIncomingRoutingRules()

Gets an array of references to instances of SccpIncomingRoutingRuleMBean

ObjectName createSccpIncomingRoutingRule()

Creates a new instance of SccpIncomingRoutingRuleMBean

void destroySccpIncomingRoutingRule()

Destroys an existing instance of SccpIncomingRoutingRuleMBean

ObjectName lookupSccpIncomingRoutingRule()

Returns a reference to the SccpIncomingRoutingRuleMBean

SccpIncomingRoutingRuleMBean

SccpIncomingRoutingRuleMBean represents an individual incoming routing rule.

Factory Method

SccpIncomingRoutingRules.createSccpIncomingRoutingRule()

Attributes

Name
Priority
ModuleInstance

For more information on these attributes, see Table 2-19.

Operations

ObjectName[] getSccpIncomingRoutingCriteria()

Gets an array of references to instances of SccpIncomingRoutingCriteriaMBean

ObjectName createSccpIncomingRoutingCriteria()

Creates a new instance of SccpIncomingRoutingCriteriaMBean

void destroySccpIncomingRoutingCriteria()

Destroys an existing instance of SccpIncomingRoutingCriteriaMBean

ObjectName lookupSccpIncomingRoutingCriteria()

Returns a reference to the SccpIncomingRoutingCriteriaMBean

SccpIncomingRoutingCriteriaMBean

SccpIncomingRoutingCriteriaMBean represents criteria for an individual incoming routing rule.

Factory Method

SccpIncomingRoutingRules.createSccpIncomingRoutingCriteria()

Attributes

Parent
Name
SessionKey
Value

For more information on these attributes, see Table 2-20.

Operations

None

SccpMBean

SccpMBean enables you to configure SCCP addresses: subsystems and global titling.

Factory Method

Created automatically

Attributes

LocalNetworkIndicator
RemoveCallingPartyPointCodeUponGtRouting
RemoveCalledPartyPointCodeUponGtRouting

For more information, see Table 2-11.

Operations

ObjectName getSccpGttEntity()

Gets a reference to the instance of SccpGttEntityMBean

ObjectName[] getSccpLocalAddressFixedGts()

Gets an array of references to instances of SccpLocalAddressFixedGtMBean

ObjectName[] getSccpLocalAddressSsns()

Gets an array of references to instances of SccpLocalAddressSsnMBean

ObjectName[] getSccpRemoteAddressDynamicGts()

Gets an array of references to instances of SccpRemoteAddressDynamicGtMBean

ObjectName[] getSccpRemoteAddressFixedGts()

Gets an array of references to instances of SccpRemoteAddressFixedGtMBean

ObjectName[] getSccpRemoteAddressSsns()

Gets an array of references to instances of SccpRemoteAddressSsnMBean

SccpLocalAddressFixedGtsMBean

SccpLocalAddressFixedGtsMBean is a root MBean for individual instances of SccpLocalAddressFixedGtMBean.

Factory Method

Created automatically

Attributes

None

Operations

ObjectName[] getSccpLocalAddressFixedGts()

Gets an array of references to instances of SccpLocalAddressFixedGtMBean

ObjectName createSccpLocalAddressFixedGt()

Creates a new instance of SccpLocalAddressFixedGtMBean

void destroySccpLocalAddressFixedGt()

Destroys an existing instance of SccpLocalAddressFixedGtMBean

ObjectName lookupSccpLocalAddressFixedGt()

Returns a reference to the specified instance of SccpLocalAddressFixedGtMBean

SccpLocalAddressFixedGtMBean

SccpLocalAddressFixedGtMBean enables you to configure a Global Title address for a Service Broker module instance.

Factory Method

SccpLocalAddressFixedGts.createSccpLocalAddressFixedGt()

Attributes

Name
Description
GtAddress
Ssn
GtIndicator
GtNatureOfAddress
GtNumberingPlan
GtTranslationType
Alias

For more information on these attributes, see Table 2-13.

Operations

None

SccpLocalAddressSsnsMBean

SccpLocalAddressSsnsMBean is a root MBean for individual instances of SccpLocalAddressSsnMBean.

Factory Method

Created automatically

Attributes

None

Operations

ObjectName[] getSccpLocalAddressSsns()

Gets an array of references to instances of SccpLocalAddressSsnMBean

ObjectName createSccpLocalAddressSsn()

Creates a new instance of SccpLocalAddressSsn

void destroySccpLocalAddressSsn()

Destroys an existing instance of SccpLocalAddressSsn

ObjectName lookupSccpLocalAddressSsn()

Returns a reference to the specified instance of SccpLocalAddressSsn

SccpLocalAddressSsnMBean

SccpLocalAddressSsnMBean enables you to assign a subsystem number to a Service Broker module instance.

Factory Method

SccpLocalAddressSsns.createSccpLocalAddressSsn()

Attributes

Name
Ssn
Description
Alias

For more information on these attributes, see Table 2-12.

Operations

None

SccpRemoteAddressDynamicGtsMBean

SccpRemoteAddressDynamicGtsMBean is a root MBean for individual instances of SccpRemoteAddressDynamicGtMBean.

Factory Method

Created automatically

Attributes

None

Operations

ObjectName[] getSccpRemoteAddressDynamicGts()

Gets an array of references to instances of SccpRemoteAddressDynamicGtMBean

ObjectName createSccpRemoteAddressDynamicGt()

Creates a new instance of SccpRemoteAddressDynamicGtMBean

void destroySccpRemoteAddressDynamicGt()

Destroys an existing instance of SccpRemoteAddressDynamicGtMBean

ObjectName lookupSccpRemoteAddressDynamicGt()

Returns a reference to the specified instance of SccpRemoteAddressDynamicGtMBean

SccpRemoteAddressDynamicGtMBean

SccpRemoteAddressDynamicGTMBean enables you to configure an address of a remote entity in the SS7 network that can be reached using a dynamic Global Title.

Factory Method

SccpRemoteAddressDynamicGts.createSccpRemoteAddressDynamicGt()

Attributes

Name
NetworkIndicator
Description
PointCode
Ssn
GtIndicator
GtNatureOfAddress
GtNumberingPlan
GtTranslationType
Alias

For more information on these attributes, see Table 2-16.

Operations

None

SccpRemoteAddressFixedGtsMBean

SccpRemoteAddressFixedGtsMBean is a root MBean for individual instances of SccpRemoteAddressFixedGtMBean.

Factory Method

Created automatically

Attributes

None

Operations

ObjectName[] getSccpRemoteAddressFixedGts()

Gets an array of references to instances of SccpRemoteAddressFixedGtMBean

ObjectName createSccpRemoteAddressFixedGt()

Creates a new instance of SccpRemoteAddressFixedGtMBean

void destroySccpRemoteAddressFixedGt()

Destroys an existing instance of SccpRemoteAddressFixedGtMBean

ObjectName lookupSccpRemoteAddressFixedGt()

Returns a reference to the specified instance of SccpRemoteAddressFixedGtMBean

SccpRemoteAddressFixedGtMBean

SccpRemoteAddressFixedGTMBean enables you to configure an address of a remote entity in the SS7 network that can be reached using a fixed Global Title.

Factory Method

SccpRemoteAddressFixedGts.createSccpRemoteAddressFixedGt()

Attributes

Name
NetworkIndicator
Description
GtAddress
PointCode
Ssn
GtIndicator
GtNatureOfAddress
GtNumberingPlan
GtTranslationType
Alias

For more information on these attributes, see Table 2-15.

Operations

None

SccpRemoteAddressSsnsMBean

SccpRemoteAddressSsnsMBean is a root MBean for individual instances of SccpRemoteAddressSsnMBean.

Factory Method

Created automatically

Attributes

None

Operations

ObjectName[] getSccpRemoteAddressSsns()

Gets an array of references to instances of SccpRemoteAddressSsnMBean

ObjectName createSccpRemoteAddressSsn()

Creates a new instance of SccpRemoteAddressSsnMBean

void destroySccpRemoteAddressSsn()

Destroys an existing instance of SccpRemoteAddressSsnMBean

ObjectName lookupSccpRemoteAddressSsn()

Returns a reference to the specified instance of SccpRemoteAddressSsnMBean

SccpRemoteAddressSsnMBean

SccpRemoteAddressSsnMBean enables you to configure an address of a remote entity in the SS7 network, that can be reached using a point code and a subsystem number.

Factory Method

SccpRemoteAddressSsns.createSccpRemoteAddressSsn()

Attributes

Name
NetworkIndicator
Ssn
PointCode
Description
Alias

For more information on these attributes, see Table 2-14.

Operations

None

SccpGttEntityMBean

SccpGttEntityMBean enables you to configure an address of a network entity that performs Global Title Translation.

Factory Method

Created automatically

Attributes

PrimaryPointCode
SecondaryPointCode
OperationMode

For more information on these attributes, see Table 2-17.

Operations

None